Planning Guide 05/2003 Edition. simodrive. & masterdrive. AC Servomotors 1FK6 SIMODRIVE 611/Masterdrive MC

Planning Guide 05/2003 Edition simodrive & masterdrive C Servomotors 1FK6 SIMODRIVE 611/Masterdrive MC

Motor Description 1 Technical Data and Characteristics 2 SIMODRIVE 611 MSTERDRIVES MC C Servomotors 1FK6 Planning Guide Motor Components (Options) 3 Dimension Drawings 4 References Index 05.2003 Edition

3ls SIMODRIVE Documentation Printing history Brief details of this edition and previous editions are listed below. The status of each edition is shown by the code in the Remarks column. Status code in the Remarks column:..... New documentation B..... Unrevised reprint with new Order No. C..... Revised edition with new status If factual changes have been made on the page since the last edition, this is indicated by a new edition coding in the header on that page. Edition Order No. for 1FK6 Remark 05.03 6SN1197-0D05-0BP0 This Manual is included in the documentation available on CD-ROM (DOCONCD) Edition Order No. Remark 09.03 6FC5 298 7C00 0BG3 C Trademarks SIMTIC, SIMTIC HMI, SIMTIC NET, SIROTEC, SINUMERIK, SIMODRIVE, MSTERDRIVES and MOTION CONNECT are registered trademarks of Siemens G. Other names in this publication might be trademarks whose use by a third party for his own purposes may violate the rights of the registered holder. For more information refer to the Internet under: http://www.ad.siemens.de/sinumerik This publication was produced with Interleaf V 7 The reproduction, transmission or use of this document or its contents is not permitted without express written authority. Offenders will be liable for damages. ll rights, including rights created by patent grant or registration of a utility model or design, are reserved. Siemens G 2003. ll rights reserved. Other functions not described in this documentation might be executable in the control. This does not, however, represent an obligation to supply such functions with a new control or when servicing. We have checked that the contents of this document correspond to the hardware and software described. Nonetheless, differences might exist and therefore we cannot guarantee that they are completely identical. The information contained in this document is reviewed regularly and any necessary changes will be included in the next edition. We welcome suggestions for improvement. Subject to change without prior notice. Order No.6SN1197-0D05-0BP0 Printed in the Federal Republic of Germany Siemens ktiengesellschaft

Foreword Information on SIMODRIVE documentation This document is part of the Technical Customer Documentation which has been developed for the SIMODRIVE system. ll of the documents are available individually. You can obtain the complete list of documentation encompassing all dvertising Brochures, Catalogs, Overviews, Short Descriptions, Operating Instructions and Technical Descriptions with Order No., ordering address and price from your local Siemens office. For reasons of transparency, this document does not include detailed information about all of the product types. Further, it cannot take into account every conceivable installation, operation or service/maintenance situation. We would also like to point out that the contents of this document are neither part of nor modify any prior or existing agreement, commitment or contractual relationship. The sales contract contains the entire obligation of Siemens. The warranty contained in the contract between the parties is the sole warranty of Siemens. ny statements contained herein neither create new warranties nor modify the existing warranty. Structure of the documentation for 1FK and 1FT motors The complete Planning Guide for 1FK and 1FT motors can be ordered as hard copy. Table Foreword-1 Planning Guide with General Section and 1FK and 1FT motors Title Order No. (MLFB) Language Drehstrom-Servomotoren 1FK und 1FT 6SN1197 0C20 0P0 German 1FK and 1FT C Servomotors 6SN1197 0C20 0BP0 English The General Section and the individual motor series are also available separately. Table Foreword-2 Planning Guide, individual sections Title Order No. (MLFB) Language C Servomotors, General Section 6SN1197 0D07 0P0 German C Servomotors, 1FK7 Motor Section 6SN1197 0D06 0P0 German C Servomotors, 1FK6 Motor Section 6SN1197 0D05 0P0 German C Servomotors, 1FT6 Motor Section 6SN1197 0D02 0P0 German C Servomotors, 1FT5 Motor Section 6SN1197 0D01 0P0 German v

Foreword 05.03 Hotline If you have any questions, please contact the following Hotline: &D Technical Support Tel.: +49 (180) 5050 222 Fax: +49 (180) 5050 223 email: adsupport@siemens.com If you have any questions regarding the documentation (suggestions, corrections), then please send a fax to the following number: +49 (9131) 98 2176 Fax form: Refer to the feedback sheet at the end of the document Definition of qualified personnel For the purpose of this document and warning information on the product itself, Qualified personnel are those who are familiar with the installation, mounting, start up and operation of the equipment and are appropriately qualified and trained for the function which they perform. Trained and authorized to energize/de energize, circuits and equipment in accordance with established safety procedures. Trained in the proper care and use of protective equipment in accordance with established safety procedures. Trained in rendering first aid. vi

05.03 Foreword Explanation of the symbols The following danger and warning concept is used in this document:! Danger This symbol is always used if death, severe or substantial property will result if proper precautions are not taken.! Warning This symbol is always used if death, severe or substantial property can result if proper precautions are not taken.! Caution This symbol is always used if minor personal injury or material damage can result if proper precautions are not taken. Caution The warning note (without a warning triangle) means that material damage can occur if proper precautions are not taken. Notice This warning note indicates that an undesirable result or an undesirable status can occur if the appropriate information is not observed. Note In the sense of this document there is a possible advantage/benefit if the note text is observed. vii

Foreword 05.03 Danger and warning information! Danger It is not permissible to commission the equipment until it has been clearly identified that the machine, in which the described components are to be installed, is in full compliance with the specifications in Directive 98/37/EC. Only appropriately qualified personnel may commission SIMODRIVE units and C motors. This personnel must take into account the technical customer documentation belonging to the product and be knowledgeable and observe the specified information and instructions on the hazards and warnings. When electrical equipment and motors are operated, then the associated electrical circuits are at hazardous voltage levels. When the machine or system is operated, hazardous axis movements can occur. ll of the work carried out in the electrical machine or system must be carried out with it in a no voltage condition. SIMODRIVE drive units are designed for operation on low ohmic, grounded line supplies (TN line supplies).! Warning The successful and safe operation of this equipment and motors is dependent on proper transport, storage, installation and mounting as well as careful operator control, service and maintenance. For special versions of the drive units and motors, information and data in the catalogs and quotations additionally apply. In addition to the information and instructions on hazards and warnings in the technical customer documentation supplied, the applicable national, local and machine/system-specific regulations and requirements must be carefully taken into consideration.! Caution The motors can have surface temperatures of over +80 C. This is the reason that it is not permissible that temperature sensitive parts and components e.g. cables or electrical components are in contact with the motor or fastened to the motor. When connecting and routing connecting cables, the following must be carefully observed: they may not be damaged they may not be strained, and they may not be able to be touched by rotating components. viii

05.03 Foreword Caution SIMODRIVE drive units with C motors are subject to a voltage test, in compliance with EN 50178 as part of a routine test. While the electrical equipment of industrial machines is being subject to a voltage test in compliance with EN 60204-1, Section 19.4, all of the SIMODRIVE equipment connections must be disconnected/withdrawn in order to avoid damaging the SIMODRIVE equipment. Motors should be connected up according to the circuit diagram supplied. It is not permissible to directly connect the motors to the three phase line supply. Motors will be destroyed if they are connected directly to the three phase line supply. Note SIMODRIVE equipment with C motors fulfill, in the operational state and in dry operating areas, the Low Voltage Directive 73/23/EEC. SIMODRIVE equipment with C motors fulfill, in the configurations which are specified in the associated C Declaration of the Conformity, the EMC Directive 89/336/EEC. ix

Foreword 05.03 ESDS information and instructions! Caution ElectroStatic Discharge Sensitive devices (ESDS) are individual components, integrated circuits or boards which can be damaged by electrostatic fields or electrostatic discharge. Handling ESDS boards: The human body, working area and packaging should be well grounded when handling ESDS components! Electronic components may only be touched by people in ESDS areas with conductive flooring if they are grounded through an ESDS wrist strap they are wearing ESDS shoes or ESDS shoe grounding strips. Electronic boards should only be touched when absolutely necessary. Electronic boards may not come into contact with synthetic materials and clothing manufactured out of man made fibers. Electronic boards may only be placed down on conductive surfaces (table with ESDS surface, conductive ESDS foam rubber, ESDS packing bag, ESDS transport containers). Electronic boards may not be brought close to data terminals, monitors or television sets (minimum clearance to screen > 10 cm). Measuring work may only be carried out on the electronic boards if the measuring device is grounded (e.g. via the protective conductor) or for floating measuring equipment, the probe is briefly discharged before making measurements (e.g. a bare control housing is touched). x

1FK6 Table of Contents 1FK6-11

1FK6 Table of Contents 05.03 1 Motor Description.............................................. 1FK6/1-13 1.1 Features............................................... 1FK6/1-13 1.2 Order designation....................................... 1FK6/1-14 1.3 Technical data, 1FK6 motor............................... 1FK6/1-15 1.4 Technical information, options............................. 1FK6/1-16 1.5 Technical data.......................................... 1FK6/1-17 1.6 rmature short circuit braking............................ 1FK6/1-18 1.7 Electrical connections.................................... 1FK6/1-19 1.8 Drive out coupling....................................... 1FK6/1-21 2 Technical Data and Characteristics............................. 1FK6/2-23 2.1 Speed torque diagrams.................................. 1FK6/2-24 2.2 Cantilever force diagrams................................ 1FK6/2-44 2.3 xial forces............................................. 1FK6/2-48 3 Motor Components (Options).................................. 1FK6/3-49 3.1 Thermal motor protection................................. 1FK6/3-49 3.2 Encoders............................................... 1FK6/3-51 3.2.1 Incremental encoders.................................... 1FK6/3-52 3.2.2 bsolute value encoders................................ 1FK6/3-54 3.2.3 Resolvers.............................................. 1FK6/3-56 3.3 Holding brake........................................... 1FK6/3-58 3.4 Gearboxes............................................. 1FK6/3-59 4 Dimension Drawings........................................... 1FK6/4-63 5 References..................................................... 1FK6/-71 6 Index.......................................................... Index 75 1FK6-12

Motor Description 1 1.1 Features pplications The 1FK6 series was essentially developed for applications on robots, gantries, loading axes, auxiliary axes, high bay racking equipment, handling systems, rotary cycle machines, machine tools and woodworking. The 1FK6 series is also suitable as feed motor for standard requirements. reliable drive system is created when 1FK6 motors are used in conjunction with Siemens drive converters. Features Depending on the shaft height, the 1FK6 series has standstill torques from 1.1 to 36 Nm at rated speeds from 3000 or 6000 RPM. The motors have a high overload capacity over the complete speed control range. 1FK6/1-13

Motor Description 1.2 Order designation 05.03 1.2 Order designation Structure of the order designation The order designation comprises a combination of digits and letters. It is sub divided into three hyphenated blocks. The motor is defined in the 1st block. dditional features are described in the 2nd and 3rd blocks. Explanation of order designation Electrical machine Synchronous motor C Servomotor Series Frame size Length Pole number Non ventilated Rated speed F = 3000 RPM H = 4500 RPM K = 6000 RPM Encoder system = Incremental encoder, sin/cos 1 V pp (I 2048) 1) E = bsolute value encoder EnDat ( 2048) 1) G = Basic absolute value encoder ( 32) 1) S = Resolver multi pole 2) S = Resolver 2 pole 1 F K 6..... 7 1 1... Shaft end = with keyway, radial eccentricity tolerance N, without holding brake B = with keyway, radial eccentricity tolerance N, with holding brake G = Smooth shaft (no keyway), radial eccentricity tolerance N, without holding brake H = Smooth shaft (no keyway), radial eccentricity tolerance N, with holding brake Degree of protection 0 = IP 64 2 = IP 65 and additionally, drive end flange, IP 67 1) Not for shaft height 36 2) The encoder pole number corresponds to that of the motor 1FK6/1-14

05.03 Motor Description 1.3 Technical data, 1FK6 motor 1.3 Technical data, 1FK6 motor Table 1-1 Features,1FK6 Technical features Motor type Type of construction (acc. to EN 60034-7; IEC 60034-7) Degree of protection (acc. to EN 60034-5; IEC 60034-5) Cooling (acc. to EN 60034-6; IEC 60034-6) Thermal motor protection (acc. to IEC and EN 60034-11) Shaft end (acc. to DIN 748-3; IEC 60072-1) Radial eccentricity, concentricity and axial eccentricity (acc. to DIN 42955; IEC 60072-1) Vibration severity (acc. to EN 60034-14; IEC 60034-14) Bearings Sound pressure level, max. (acc. to EN 21680) Stator winding insulation (acc. to EN 60034-1; IEC 60034-1) Installation altitude above sea level (acc. to IEC and EN 60034 1) Magnetic materials Electrical connection Speed encoder, integrated Rating plate Version Permanent magnet synchronous motor; C servomotor IM B5 (IM V1, IM V3) IP 64, (option, refer to 1-2) Non ventilated KTY84 temperature sensor in the stator winding Cylindrical; without keyway and without key tolerance field k6, (option, refer to Table 1-2) Tolerance N (normal) Stage N (normal) Roller bearings with permanent grease lubrication (lubrication over the bearing lifetime) 1FK603: 55 db () 1FK604: 55 db () 1FK606: 65 db () 1FK608: 70 db () 1FK610: 70 db () Temperature rise class F for a winding temperature rise of T = 100 K for an ambient temperature of 40 C. For ambient temperatures > 40 C, the power must be reduced (de rated) (refer to the documentation General Section ). 1000 m above sea level, otherwise power de rating 2000 m factor 0.94 2500 m factor 0.9 (refer to the documentation General Section ) Rare earth materials Connector, which can be rotated for power and encoder signals Optical encoder: Incremental encoder, sin/cos 1 V pp (I 2048) Basic absolute value encoder ( 32) 1) bsolute value encoder, ( 2048, not for 1FK6032) 1) Resolver, two pole/multi pole For more detailed information, refer to Chapter 3.2 rating plate is supplied loose for each motor 1) When using an absolute encoder, the rated torque is reduced by 10% (refer to Table 1-3 Technical data) 1FK6/1-15

Motor Description 05.03 1.4 Technical information, options 1.4 Technical information, options Table 1-2 Options Technical features Degree of protection (acc. to EN 60034-5; IEC 60034-5) Version IP 65, in addition, IP67 for the drive end flange Integrated/mounted components Fail safe holding brake; Supply voltage 24V 10% (acc. to DIN 0580 7/79) Planetary gearbox (prerequisite: smooth shaft no keyway) Shaft end (acc. to EN and IEC 60034 14) Cylindrical; with keyway and key; Tolerance field k6 (half key balancing) Paint finish nthracite (similar to RL 7016) Z option X09 1FK6/1-16

05.03 Motor Description 1.5 Technical data 1.5 Technical data 100 K values are specified in the table. Table 1-3 Technical data, 1FK6 n N [RPM] M 0 [Nm] M N [Nm] M N 4) [Nm] Motor type 1FK6 Motor current Ι 0 3) [] Rated drive converter current 3) [] Connect or size Cross section 1) [mm 2 ] Cable type 6FX 002 5) 6000 1.1 0.8 6) 032 6K71 1.7 3 1 4 x 1.5 5 01 1 0 6000 1.6 0.8 0.72 040 6K71 2.8 3 1 4 x 1.5 5 01 1 0 3000 3.2 2.6 2.3 042 6F71 2.8 3 1 4 x 1.5 5 01 1 0 3000 6.0 4.0 3.6 060 6F71 4.3 5 1 4 x 1.5 5 01 1 0 3000 11.0 6.0 5.4 063 6F71 7.9 9 1 4 x 1.5 5 01 1 0 3000 8.0 6.8 6.1 080 6F71 5.8 9 1 4 x 1.5 5 01 1 0 3000 16.0 10.5 9.5 083 6F71 10.4 18 1 4 x 1.5 5 01 1 0 3000 18.0 12.0 10.8 100 6F71 12.2 18 1 4 x 1.5 5 01 1 0 3000 27.0 15.5 14.0 101 6F71 17.5 18 1.5 4 x 2.5 5 31 1 0 3000 36.0 16.5 14.9 103 6F71 23.5 28 1.5 4 x 4 5 41 1 0 without brake cable: without overall shield with overall shield C with brake cable: without overall shield B with overall shield D Lengths 2) 5 m F (examples) 10 m B 15 m BF 18 m BJ 25 m CF Cables are not included with the motors they must be separately ordered. 1) Dimensioned for I rms (100 K); ambient temperature 40 C; PVC insulated cable; brake connection 2 x 1.5 mm 2 2) Cables are supplied by the meter; length code, refer to documentation General Section 3) The specified values are RMS values 4) With absolute value encoder (due to the max. encoder temperature) 5) 8 = MOTION CONNECT 800, 5 = MOTION CONNECT 500; Technical data, refer to Catalog NC Z 6) It is not possible to mount/install absolute value encoders 1FK6/1-17

Motor Description 1.6 rmature short circuit braking 05.03 1.6 rmature short circuit braking The function description of the armature short circuit braking is described in the documentation General Section. Dimensioning the braking resistors for optimum short circuit braking n optimum braking time is achieved by dimensioning the braking resistors. The braking torques which are obtained are listed in the following table. The data applies for braking from the rated speed. If a drive is braked from another speed, then the braking time cannot be linearly calculated. However, longer braking times cannot occur. The resistor rating must be coordinated with the particular I 2 t load capacity, refer to the documentation General Section. Table 1-4 Resistor braking for 1FK6 Motor type External brake resistor R opt [Ω] verage braking torque M br rms [Nm] without external braking resistor with external braking resistor Max. braking torque M br max [Nm] RMS braking current I br rms [] without external braking resistor with external braking resistor 1FK6032-6K71 6.6 1.6 1.8 2.3 6.1 5.6 1FK6040-6K71 3.8 2.0 2.5 3.1 9.6 8.8 1FK6042-6F71 2.7 4.8 5.2 6.5 9.9 9.3 1FK6060-6F71 3.6 6.5 8.0 9.9 12.7 11.6 1FK6063-6F71 2.2 10.8 15.9 19.8 26.0 23.3 1FK6080-6F71 3.4 7.1 10.4 12.9 16.7 15.1 1FK6083-6F71 2.3 11.8 21.2 26.0 31.0 28.0 1FK6100-8F71 1.8 14.1 25.0 31.0 38.0 35.0 1FK6101-8F71 1.3 18.7 38.0 47.0 56.0 50.0 1FK6103-8F71 1.0 23.3 52.0 65.0 77.0 69.0 1FK6/1-18

05.03 Motor Description 1.7 Electrical connections 1.7 Electrical connections! Warning The motors are not designed to be connected directly to the line supply. Connection assignment, power connector and signal connector at the motor Signal connection for incremental encoders + R+ R B B+ P Encoder (5 V) inside shield D D+ 3 4 2 14 1 13 5 6 12 E 15 7 16 11 8 10 9 5 V Sense +Temp Temp 3 4 2 14 1 13 5 6 12 17 15 7 16 11 8 10 9 C+ C M Encoder 0 V Sense Signal connection for absolute encoders not connected +Data not connected Data Clock +Clock + B B+ P Encoder 5 V Sense Temp +Temp not connected M Encoder 0 V Sense Signal connection for resolvers S2 Temp +Temp R1 S3 1 9 8 S4 R3 2 10 12 7 3 11 6 not connected 4 not connected 5 not connected Power connection Connector size 1 BR U 5 6 1 W 4 2 BR+ V GNYE Power connection Connector size 1.5 V BR BR+ + W U GNYE Power connection, U, V, W Brake connection BR+, BR (only when ordered) not connected S1 Fig. 1-1 Connection assignment: Power, brake, encoder and temperature sensor 1FK6/1-19

Motor Description 1.7 Electrical connections 05.03 Power and signal connectors can be rotated Signal connector 180 Power connector Fig. 1-2 Connectors can be rotated Direction of rotation: When supplied: Power and signal connector, NDE Power connector: 270, clockwise Signal connector: Shaft heights 36 to 80: 180, counter clockwise 90, clockwise Shaft height 100: 90, counter clockwise 90, clockwise Torques when rotating: Power connector: Size 1: M max = 8 Nm Size 1.5: M max = 15 Nm Signal connector: M max = 8 Nm Connectors should be rotated using the matching mating connector located on the connector thread. Note It is not permissible that the specified rotation range is exceeded. In order to guarantee the degree of protection, max. 10 revolutions are permissible. Do not exceed max. torques when rotating. Connecting cables must be secured against tension and bending. The motor connectors must then be secured so that they cannot rotate. It is not permissible to subject the connector to continuous force. 1FK6/1-20

05.03 Motor Description 1.8 Drive out coupling 1.8 Drive out coupling For the ordering address, refer to the documentation General Section or the Internet www.ktr.com Table 1-5 ssignment of the drive out couplings to the motors Shaft height Rotex GS Type Torques which can be transferred with an 80 or 92 Sh GS pinion T KN [Nm] T Kmax [Nm] 36 14 7.5 15 48 19/24 10 20 63 24/28 35 70 80 28/38 95 190 100 38/45 190 380 It may be necessary to use other pinions (e.g. Shore hardness 80 SH ). This must be optimally harmonized together with the mounted mechanical system.! Warning The accelerating torque may not exceed the clamping torque of the coupling! Notice Under no circumstances can we guarantee the quality and correctness of third party products. Please carefully observe the detailed text in the Foreword. 1FK6/1-21

Motor Description 1.8 Drive out coupling 05.03 Space for your notes 1FK6/1-22

Technical Data and Characteristics 2 Note DC link voltages > 600 V occur when the motors are fed from drive converters connected to 480 V line supplies. The following restrictions apply: Shaft heights 36, 48, 63 and 80 may only be utilized to T = 60 K. Shaft height 100 may still be utilized to T = 100 K For a description of the shift of the voltage limiting characteristics, refer to the documentation General Section. The specified thermal S3 limiting characteristics are referred to T = 100 K for a 1 min. duty cycle. 1FK6/2-23

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 2.1 Speed torque diagrams Table 2-1 1FK6032 Standard 1FK6032 Technical data Code Units 6K71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 6000 6 0.8 1.5 0.9 1.1 1.4 1.7 0.75 0.68 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 6000 0.5 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 12000 4.5 7.3 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 0.67 44 5.7 13 2.3 6270 2.6 25 3.0 2.9 1FK6/2-24

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 1FK6032 6K71 5 4 a b c 3 Torque [Nm] 2 S3 25% 1 S3 40% S3 60% S1 (100K) S1 (60K) 0 0 1000 2000 3000 4000 5000 6000 7000 Speed [RPM] Fig. 2-1 Speed torque diagram 1FK6032 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-25

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-2 1FK6040 Standard 1FK6040 Technical data Code Units 6K71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 6000 6 0.8 1.75 1.3 1.6 2.2 2.8 2.10 1.84 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 6000 0.5 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 8500 5.1 9.0 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 0.57 37.5 2.75 7.0 2.5 18100 4.7 25 4.1 3.7 1FK6/2-26

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 1FK6040 6K71 6 5 a b 4 Torque [Nm] 3 2 S3 25% S3 40% S3 60% 1 S1 (100K) S1 (60K) 0 0 1000 2000 3000 4000 5000 6000 7000 Speed [RPM] Fig. 2-2 Speed torque diagram 1FK6040 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-27

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-3 1FK6042 Standard 1FK6042 Technical data Code Units 6F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 6 2.6 2.4 2.65 3.2 2.2 2.8 3.52 3.30 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 0.82 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 8500 10.6 9.5 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.15 76 3.65 13.5 3.7 14700 2.7 35 5.4 5.0 1FK6/2-28

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 1FK6042 6F71 12 10 a b c 8 Torque [Nm] 6 4 S3 25% S3 40% S3 60% 2 S1 (100K) S1 (60K) 0 0 500 1000 1500 2000 2500 3000 3500 4000 Speed [RPM] Fig. 2-3 Speed torque diagram 1FK6042 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-29

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-4 1FK6060 Standard 1FK6060 Technical data Code Units 6F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 6 4.0 3.1 5.0 6.0 3.5 4.3 9.50 8.60 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 1.26 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 6600 17.7 14 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.39 92 2.5 13.0 5.2 39600 3.3 30 9.6 9.0 1FK6/2-30

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 1FK6060 6F71 20 18 16 a b c 14 Torque [Nm] 12 10 8 S3 25% S3 40% S3 60% 6 4 S1 (100K) S1 (60K) 2 0 0 500 1000 1500 2000 2500 3000 3500 4000 Speed [RPM] Fig. 2-4 Speed torque diagram 1FK6060 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-31

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-5 1FK6063 Standard 1FK6063 Technical data Code Units 6F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 6 6.0 4.7 9.1 11.0 6.3 7.9 17.0 16.1 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 1.89 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 6600 36 28 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.39 92 0.83 6.5 7.8 32900 2.1 35 13.8 13.2 1FK6/2-32

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 40 1FK6063 6F71 35 a b c 30 25 Torque [Nm] 20 15 S3 25% S3 40% S3 60% 10 5 S1 (100K) S1 (60K) Fig. 2-5 0 0 500 1000 1500 2000 2500 3000 3500 4000 Speed [RPM] Speed torque diagram 1FK6063 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-33

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-6 1FK6080 Standard 1FK6080 Technical data Code Units 6F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 6 6.8 5.2 6.6 8.0 4.6 5.8 18.0 15.0 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 2.14 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 5600 25 19 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.39 92 1.3 10 7.7 119000 3.0 30 13.7 12.5 1FK6/2-34

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 30 1FK6080 6F71 25 a b c 20 Torque [Nm] 15 10 S3 25% S3 40% S3 60% S1 (100K) 5 S1 (60K) 0 0 500 1000 1500 2000 2500 3000 3500 Speed [RPM] Fig. 2-6 Speed torque diagram 1FK6080 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-35

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-7 1FK6083 Standard 1FK6083 Technical data Code Units 6F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 6 10.5 7.7 13.3 16 8.3 10.4 30.3 27.3 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 3.3 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 5600 50 36 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.54 102 0.54 6.0 11.1 100000 1.9 35 18.2 17.0 1FK6/2-36

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 60 1FK6083 6F71 55 50 45 a b c 40 35 Torque [Nm] 30 25 20 S3 25% S3 40% S3 60% 15 10 S1 (100K) S1 (60K) 5 0 0 500 1000 1500 2000 2500 3000 3500 Speed [RPM] Fig. 2-7 Speed torque diagram 1FK6083 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-37

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-8 1FK6100 Standard 1FK6100 Technical data Code Units 8F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 8 12.0 8.4 15 18 9.8 12.2 63.2 55.3 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 3.77 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 4300 55 42 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.48 98 0.42 3.5 8.3 176000 3.2 35 22.5 21.0 1FK6/2-38

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 60 1FK6100 8F71 55 50 a b c 45 40 Torque [Nm] 35 30 25 20 S3 25% S3 40% S3 60% 15 10 S1 (100K) S1 (60K) 5 0 0 500 1000 1500 2000 2500 3000 3500 Speed [RPM] Fig. 2-8 Speed torque diagram 1FK6100 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-39

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-9 1FK6101 Standard 1FK6101 Technical data Code Units 8F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 8 15.5 10.8 22.4 27.0 14.0 17.5 92.8 79.9 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 4.87 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 4300 80 58 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.54 102 0.24 2.5 10.4 159000 2.4 40 28 26 1FK6/2-40

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 90 1FK6101 8F71 80 70 a b c 60 Torque [Nm] 50 40 S3 25% S3 40% 30 S3 60% 20 10 S1 (100K) S1 (60K) 0 0 500 1000 1500 2000 2500 3000 3500 Speed [RPM] Fig. 2-9 Speed torque diagram 1FK6101 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-41

Technical Data and Characteristics 2.1 Speed torque diagrams 05.03 Table 2-10 1FK6103 Standard 1FK6103 Technical data Code Units 8F71 Engineering data Rated speed Pole number Rated torque (100K) Rated current Standstill torque (60K) Standstill torque (100K) Standstill current (60K) Standstill current (100K) Moment of inertia (with brake) Moment of inertia (without brake) n N 2p M N (100 K) I N M 0 (60 K) M 0 (100 K) I 0 (60 K) I 0 (100 K ) J mot J mot RPM Nm Nm Nm 10 4 kgm 2 10 4 kgm 2 3000 8 16.5 11.8 30 36.0 18.9 23.5 118 105 Optimum operating point Optimum speed Optimum power n opt P opt RPM kw 3000 5.18 Limiting data Max. permissible speed (mech.) Maximum torque Max. current n max M max I max RPM Nm 4300 107 78 Physical constants Torque constant Voltage constant Winding resistance at 20 C Rotating field inductance Electrical time constant Shaft torsional stiffness Mechanical time constant Thermal time constant Weight (with brake) Weight (without brake) k T k E R ph. L D T el c t T mech T th m m Nm/ V/1000 RPM Ohm mh ms Nm/rad ms min kg kg 1.53 101 0.15 1.8 12.0 144000 2.0 45 32 30 1FK6/2-42

05.03 Technical Data and Characteristics 2.1 Speed torque diagrams 1FK6103 8F71 120 110 100 a b c 90 80 70 Torque [Nm] 60 50 S3 25% S3 40% 40 S3 60% 30 20 10 S1 (100K) S1 (60K) 0 0 500 1000 1500 2000 2500 3000 3500 Speed [RPM] Fig. 2-10 Speed torque diagram 1FK6103 Standard [a] MSTERDRIVES MC, V DC link =540V (DC), V mot =340V rms [b] SIMODRIVE 611 (UI), V DC link =540V (DC) and MSTERDRIVES MC (FE), V DC link =600V (DC), V mot =380V rms [c] SIMODRIVE 611 (IR), V DC link =600V (DC), V mot =425V rms 1FK6/2-43

Technical Data and Characteristics 2.2 Cantilever force diagrams 05.03 2.2 Cantilever force diagrams Cantilever force stressing Point of application of cantilever forces F Q at the shaft end for average operating speeds for a nominal bearing lifetime of 20 000 h F Q x l Fig. 2-11 Force application point at the DE shaft end Dimension x: Dimension l: Distance between the point of application of force F Q and the shaft shoulder in mm. Length of the shaft end in mm. Calculating the pre tensioned belt force F R = 2 M 0 c/d R F R [N] Pre tensioned belt force M 0 [Nm] Motor standstill torque d R Effective diameter of the belt pulley c Pre tension factor for the accelerating torque Experience values for toothed belts c = 1.5 to 2.2 Experience values for flat belts c = 2.2 to 3.0 When using other configurations, the actual forces, generated from the torque being transferred, must be taken into account. F R F Qper 1FK6/2-44

05.03 Technical Data and Characteristics 2.2 Cantilever force diagrams Cantilever force 1FK603 F QS [N] 600 500 n=500 RPM 400 300 n=1000 RPM n=1500 RPM n=2000 RPM 200 n=3000 RPM n=4500 RPM n=6000 RPM 100 0 5 10 15 20 25 30 x [mm] Fig. 2-12 Cantilever force F Q at a distance x from the shaft shoulder for a nominal bearing lifetime of 20 000 h. Cantilever force 1FK604 F QS [N] 1200 1100 1000 n=500 RPM 900 800 n=1000 RPM 700 n=1500 RPM 600 n=2000 RPM 500 n=3000 RPM n=4500 RPM 400 0 5 10 15 20 25 30 35 40 x [mm] Fig. 2-13 Cantilever force F Q at a distance x from the shaft shoulder for a nominal bearing lifetime of 20 000 h. 1FK6/2-45

Technical Data and Characteristics 2.2 Cantilever force diagrams 05.03 Cantilever force 1FK606 F QS [N] 1100 1000 900 n=1000 RPM 800 700 n=1500 RPM n=2000 RPM 600 n=3000 RPM 500 400 0 5 10 15 20 25 30 35 40 45 50 n=4000 RPM n=4500 RPM n=6000 RPM x [mm] Fig. 2-14 Cantilever force F Q at a distance x from the shaft shoulder for a nominal bearing lifetime of 20 000 h. Cantilever force 1FK608 F QS [N] 2400 2200 2000 n = 500 RPM 1800 1600 n = 1000 RPM 1400 n = 1500 RPM 1200 n = 2000 RPM 1000 n = 3000 RPM 800 0 10 20 30 40 50 58 n = 4500 RPM 70 x [mm] Fig. 2-15 Cantilever force F Q at a distance x from the shaft shoulder for a nominal bearing lifetime of 20 000 h. 1FK6/2-46

05.03 Technical Data and Characteristics 2.2 Cantilever force diagrams Cantilever force 1FK610 F QS [N] 3500 3000 2500 2000 1500 1000 n=500 RPM n=1000 RPM n=1500 RPM n=2000 RPM n=3000 RPM n=4500 RPM 500 0 10 20 30 40 50 60 70 80 x [mm] Fig. 2-16 Cantilever force F Q at a distance x from the shaft shoulder for a nominal bearing lifetime of 20 000 h. 1FK6/2-47

Technical Data and Characteristics 2.3 xial forces 05.03 2.3 xial forces xial force stressing! Warning xial forces are not permissible for motors with integrated holding brake! When using, e.g. helical gearwheels as drive element, in addition to the radial force, the motor bearings are also subject to an axial force. For axial forces, the spring loading of the bearings can be overcome so that the rotary moves corresponding to the axial bearing play present (up to 0.2 mm). The permissible axial force can be approximately calculated using the following formula: F = 0.35 F Q 1FK6/2-48

Motor Components (Options) 3 3.1 Thermal motor protection temperature dependent resistor is integrated as temperature sensor to monitor the motor temperature. Type: Resistance when cold (20 C): Resistance when hot (100 C): Response temperature Connection: KTY 84 (PTC thermistor) approx. 580 Ω approx. 1000 Ω Pre alarm at 120 C Trip at 155 C 5 C via the encoder cable The change in the resistance of the KTY 84 is proportional to the winding temperature change (refer to Fig. 3-1). The temperature is sensed and evaluated in the drive converter, whose closed loop control takes into account the temperature characteristic of the motor resistances. If a fault condition develops, an appropriate signal is output at the drive converter. When the motor temperature increases, a Pre alarm, motor overtemperature signal is output which can be externally evaluated. If this signal is not observed, when the motor limiting temperature or the shutdown temperature is exceeded, the drive converter shuts down with the appropriate fault signal.! Warning If the user carries out an additional high voltage test, then the ends of the temperature sensor cables must be short circuited before the test! The temperature sensor will be destroyed if the test voltage is connected to only one terminal of the temperature sensor. The polarity must be carefully observed. The temperature sensor is designed so that the DIN/EN requirement for Protective separation is fulfilled. 1FK6/3-49

Motor Components (Options) 3.1 Thermal motor protection 05.03! Caution The integrated temperature sensor protects the servomotors against overload conditions: Shaft heights 36 and 48 to 2 I 0 60 K and speed <> 0 from shaft height 63 to 4 I 0 60 K and speed <> 0 Sufficient protection is no longer provided for thermally critical load situations, e.g. a high overload condition at motor standstill. This is the reason that a thermal overload relay as example should be provided as additional protection. If an overload condition of 4 M 0 lasts for longer than 4s, then additional motor protection must also be provided. R [kω] 3 2 1 I D = 2 m 0 0 100 200 300 ϑ U [ C] Fig. 3-1 Resistance characteristic of the KTY 84 as a function of the temperature 1FK6/3-50

05.03 Motor Components (Options) 3.2 Encoders 3.2 Encoders Table 3-1 Overview of the encoders used Motor types Increm. enc. sin/cos 1 Vpp (I 2048) bs. value enc. EnDat ( 2048) Basic absolute value encoder ( 32) Resolver 2-pole or multi pole Order No. 14th position 1FK6 03 E G S, T 1FK6 04 X X X X 1FK6 06 X X X X 1FK6 08 X X X X 1FK6 10 X X X X X Notice When an encoder is replaced, the position of the encoder system with respect to the motor EMF must be adjusted. Only qualified personnel should replace an encoder. 1FK6/3-51

Motor Components (Options) 3.2 Encoders 05.03 3.2.1 Incremental encoders Function: ngular measuring system for commutation Speed actual value sensing Indirect increm. meas. system for the pos. control loop One zero pulse (reference mark) per revolution Table 3-2 Technical data, incremental encoder sin/cos 1V pp Features Incremental encoders sin/cos 1Vpp Mech. limiting speed 15,000 RPM 12,000 RPM Operating voltage 5V 5% 5V 5% Current drain max. 150 m max. 200 m Resolution, incremental 2048 2048 Incremental signals 1 Vpp 1 Vpp ccuracy 40 80 C D track (rotor position) vailable vailable Incremental encoders sin/cos 1Vpp (low shaft height) U [V] 360 el.= 360 mech. 2048 B R 0 0 0 45 el. ϕ ϕ ϕ U [V] 180 el. 90 el. C D 0 0 ϕ ϕ R 0 ϕ 360 el. = 360 mech. Fig. 3-2 Signal sequence and assignment for a positive direction of rotation (clockwise rotation when viewing the drive end) 1FK6/3-52

05.03 Motor Components (Options) 3.2 Encoders Connection assignment for 17-pin flange mounted socket with plug contacts PIN No. Signal 1 + 2 3 R+ 4 D 5 C+ 6 C 7 M Encoder 8 +Temp 9 Temp 10 P Encoder 11 B+ 12 B 13 R 14 D+ 15 0 V Sense 16 5 V Sense 17 not connected 3 4 2 5 1 13 14 6 12 17 15 7 11 16 8 10 9 When viewing the connector side (pins) Connectors and cables Mating connector: 6FX2003 0CE17 (socket) Pre assembled cable: 6FX 002 2C31 0 Length 2) 5 = MOTION CONNECT 500 1) 8 = MOTION CONNECT 800 1) Cable length: max. 50 m 1) Technical data of the MOTION-CONNECT series, refer to Catalog NC Z 2) Length code, refer to Catalog NC Z 1FK6/3-53

Motor Components (Options) 3.2 Encoders 05.03 3.2.2 bsolute value encoders Function: ngular measuring system to impress the current Speed actual value sensing Indirect measuring system for the position control loop Table 3-3 Technical data, absolute value encoder Features bsolute value encoder EnDat ( 2048) bsolute value encoder EnDat ( 512) Basic absolute value encoder ( 32) Mech. limiting speed 12000 RPM 12000 RPM 12000 RPM Operating voltage 5V 5% 5V 5% 5V 5% Current drain max. 300 m max. 300 m max. 300 m Resolution, incremental (periods per revolution) Resolution, absolute (coded revolutions) 2048 512 32 4096 4096 4096 Incremental signals 1 Vpp 1 Vpp 1 Vpp Serial absolute position interface EnDat EnDat EnDat ccuracy 40 80 400 Note s a result of the reduced maximum operating temperature of absolute value encoders with respect to incremental encoders, the thermally permissible motor torque is reduced (refer to the technical data of the motors)! 1FK6/3-54

05.03 Motor Components (Options) 3.2 Encoders Connection assignment for 17 pin flange mounted socket with pin contacts PIN No. Signal 1 + 2 3 +Data 4 not connected 5 +Clock 6 not connected 7 M Encoder 8 +Temp 9 Temp 10 P Encoder 11 B+ 12 B 13 +Data 14 Clock 15 0 V Sense 16 5 V Sense 17 not connected 3 4 2 5 1 13 14 6 12 17 15 7 11 16 8 10 9 When viewing the plug in side (pins) Connectors and cables Mating connector: 6FX2003 0CE17 (socket) Pre assembled cable: 6FX 002 2EQ10 0 Length 2) 5 = MOTION CONNECT 500 1) 8 = MOTION CONNECT 800 1) Cable length: max. 50 m 1) Technical data of the MOTION-CONNECT series, refer to Catalog NC Z 2) Length code, refer to Catalog NC Z 1FK6/3-55

Motor Components (Options) 3.2 Encoders 05.03 3.2.3 Resolvers Function: Speed actual value sensing Rotor position encoder for inverter control Indirect increm. meas. system for the pos. control loop Note The limiting frequency of the drive converter must be carefully observed. SIMODRIVE 611U: Limiting frequency 432 Hz (before SW 4.1: 375 Hz) SIMODRIVE 611: only possible for 2 pole resolvers Table 3-4 Technical data, resolvers Features Mech. limiting speed Excitation voltage Excitation frequency Current drain ngular accuracy (bandwidth) 2-pole multi pole Pole number Ratio Values 15,000 RPM 5 V (rms) up to 13 V (rms) 4 khz to 10 khz < 80 m (rms) < 14 < 4 2, 4, 6 or 8 1) 0.5 U [V] u S2S4 (demodulated) u W U t Motor rotates clockwise Fig. 3-3 Signal sequence and assignment for a positive direction of rotation (clockwise direction rotation when viewing the drive end) 1) Pole number is the same as the motor pole number 1FK6/3-56

05.03 Motor Components (Options) 3.2 Encoders Connection assignment for 12 pin flange mounted socket with pin contacts PIN No. Signal 1 S2 2 S4 3 not connected 4 not connected 5 not connected 6 not connected 7 R3 8 +Temp 9 Temp 10 R1 11 S1 12 S3 1 9 8 2 10 12 7 11 3 6 4 5 When viewing the plug in side (pins) Connectors and cables Mating connector: 6FX2003 0CE12 (socket) Pre assembled cable: 6FX 002 2CF02 0 Length 2) 5 = MOTION CONNECT 500 1) 8 = MOTION CONNECT 800 1) Cable length: max. 50 m 1) Technical data of the MOTION-CONNECT series, refer to Catalog NC Z 2) Length code, refer to Catalog NC Z 1FK6/3-57